A new study commissioned by the Fuel Cells and Hydrogen Joint Undertaking (FCH JU) and Shift2Rail Joint Undertaking (S2R JU) analyzes the opportunities to enable a larger introduction of fuel cells and hydrogen (FCH) technologies within the European railway market. The study shows significant market potential for FCH technologies in the rail environment. The technology provides a flexible, zero-emission and potentially cost-competitive solution underpinning clear business cases to replace diesel trains, within certain contexts.
The study on the use of fuel cells and hydrogen in the railway environment assesses the state of the art, the business case, the market potential, 10 specific case studies and the main barriers to the use of FCH technologies in different rail applications. Roland Berger, on behalf of the FCH JU and S2R JU, conducted this study.
“Hydrogen is one of the best technologies to decarbonize transportation, providing an attractive alternative to many cities and regions struggling to combat air pollution. Various regions in Europe have shown interest in the potential of fuel cell and hydrogen technologies for trains, in particular where other electrification alternatives to reach the zero-emission objectives have proven unfeasible from a technical and also an economical point of view”, said Bart Biebuyck, Executive Director of FCH JU.
Carlo Borghini, Executive Director of S2R JU commented: “The analysis finds that the global FCH train market development activities are currently concentrated in Europe. This is encouraging as it puts Europe at the forefront of FCH train technology, which constitutes a significant potential for the European FCH industry. The rail system transformation initiated with the establishment of the Shift2Rail Program, driven by sustainability, digitalization and automation, creates new market opportunities for the competitiveness of the rail industry globally”.
Hydrogen trains are equipped with fuel cells that produce electricity through a combination of hydrogen and oxygen, a process that leaves water as the only emissions. They are a green, quieter alternative to diesel on non-electrified railway lines.
The analysis of 10 selected case studies across Europe revealed attractive use cases and potential boundary conditions for FCH technologies in the rail environment. Finally, several barriers were identified that must be overcome in order to unlock its full potential. Three targeted research and innovation topics have been proposed as the means to tackle the most important of these barriers.
Multiple units, shunter locomotives and freight locomotives are three applications evaluated in the study. Some cases already show a positive Total Cost of Ownership (TCO) for fuel cells, while in other applications fuel cells are recognized as the most adequate zero-emission alternative.
Source: FCH JU